DOCSLIB.ORG

Great Astronomers

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Great Astronomers Great Astronomers R. S. Ball Great Astronomers Table of Contents Great Astronomers....................................................................................................................................................1 R. S. Ball........................................................................................................................................................1 i Great Astronomers R. S. Ball PREFACE. It has been my object in these pages to present the life of each astronomer in such detail as to enable the reader to realise in some degree the man's character and surroundings; and I have endeavoured to indicate as clearly as circumstances would permit the main features of the discoveries by which he has become known. There are many types of astronomers−−from the stargazer who merely watches the heavens, to the abstract mathematician who merely works at his desk; it has, consequently, been necessary in the case of some lives to adopt a very different treatment from that which seemed suitable for others. While the work was in progress, some of the sketches appeared in "Good Words." The chapter on Brinkley has been chiefly derived from an article on the "History of Dunsink Observatory," which was published on the occasion of the tercentenary celebration of the University of Dublin in 1892, and the life of Sir William Rowan Hamilton is taken, with a few alterations and omissions, from an article contributed to the "Quarterly Review" on Graves' life of the great mathematician. The remaining chapters now appear for the first time. For many of the facts contained in the sketch of the late Professor Adams, I am indebted to the obituary notice written by my friend Dr. J.W.L. Glaisher, for the Royal Astronomical Society; while with regard to the late Sir George Airy, I have a similar acknowledgment to make to Professor H.H. Turner. To my friend Dr. Arthur A. Rambaut I owe my hearty thanks for his kindness in aiding me in the revision of the work. R.S.B. The Observatory, Cambridge. October, 1895 INTRODUCTION. Of all the natural sciences there is not one which offers such sublime objects to the attention of the inquirer as does the science of astronomy. From the earliest ages the study of the stars has exercised the same fascination as it possesses at the present day. Among the most primitive peoples, the movements of the sun, the moon, and the stars commanded attention from their supposed influence on human affairs. The practical utilities of astronomy were also obvious in primeval times. Maxims of extreme antiquity show how the avocations of the husbandman are to be guided by the movements of the heavenly bodies. The positions of the stars indicated the time to plough, and the time to sow. To the mariner who was seeking a way across the trackless ocean, the heavenly bodies offered the only reliable marks by which his path could be guided. There was, accordingly, a stimulus both from intellectual curiosity and from practical necessity to follow the movements of the stars. Thus began a search for the causes of the ever−varying phenomena which the heavens display. Many of the earliest discoveries are indeed prehistoric. The great diurnal movement of the heavens, and the annual revolution of the sun, seem to have been known in times far more ancient than those to which any human monuments can be referred. The acuteness of the early observers enabled them to single out the more important of the wanderers which we now call planets. They saw that the star−like objects, Jupiter, Saturn, and Mars, with the more conspicuous Venus, constituted a class of bodies wholly distinct from the fixed stars among which their movements lay, and to which they bear such a superficial resemblance. But the penetration of the early astronomers went even further, for they recognized that Mercury also belongs to the same group, though this particular object is seen so rarely. It would seem that eclipses and other phenomena were observed at Babylon from a very remote period, while the most ancient records of celestial observations that we possess are to be found in the Chinese annals. Great Astronomers 1 Great Astronomers The study of astronomy, in the sense in which we understand the word, may be said to have commenced under the reign of the Ptolemies at Alexandria. The most famous name in the science of this period is that of Hipparchus who lived and worked at Rhodes about the year 160BC. It was his splendid investigations that first wrought the observed facts into a coherent branch of knowledge. He recognized the primary obligation which lies on the student of the heavens to compile as complete an inventory as possible of the objects which are there to be found. Hipparchus accordingly commenced by undertaking, on a small scale, a task exactly similar to that on which modern astronomers, with all available appliances of meridian circles, and photographic telescopes, are constantly engaged at the present day. He compiled a catalogue of the principal fixed stars, which is of special value to astronomers, as being the earliest work of its kind which has been handed down. He also studied the movements of the sun and the moon, and framed theories to account for the incessant changes which he saw in progress. He found a much more difficult problem in his attempt to interpret satisfactorily the complicated movements of the planets. With the view of constructing a theory which should give some coherent account of the subject, he made many observations of the places of these wandering stars. How great were the advances which Hipparchus accomplished may be appreciated if we reflect that, as a preliminary task to his more purely astronomical labours, he had to invent that branch of mathematical science by which alone the problems he proposed could be solved. It was for this purpose that he devised the indispensable method of calculation which we now know so well as trigonometry. Without the aid rendered by this beautiful art it would have been impossible for any really important advance in astronomical calculation to have been effected. But the discovery which shows, beyond all others, that Hipparchus possessed one of the master−minds of all time was the detection of that remarkable celestial movement known as the precession of the equinoxes. The inquiry which conducted to this discovery involved a most profound investigation, especially when it is remembered that in the days of Hipparchus the means of observation of the heavenly bodies were only of the rudest description, and the available observations of earlier dates were extremely scanty. We can but look with astonishment on the genius of the man who, in spite of such difficulties, was able to detect such a phenomenon as the precession, and to exhibit its actual magnitude. I shall endeavour to explain the nature of this singular celestial movement, for it may be said to offer the first instance in the history of science in which we find that combination of accurate observation with skilful interpretation, of which, in the subsequent development of astronomy, we have so many splendid examples. The word equinox implies the condition that the night is equal to the day. To a resident on the equator the night is no doubt equal to the day at all times in the year, but to one who lives on any other part of the earth, in either hemisphere, the night and the day are not generally equal. There is, however, one occasion in spring, and another in autumn, on which the day and the night are each twelve hours at all places on the earth. When the night and day are equal in spring, the point which the sun occupies on the heavens is termed the vernal equinox. There is similarly another point in which the sun is situated at the time of the autumnal equinox. In any investigation of the celestial movements the positions of these two equinoxes on the heavens are of primary importance, and Hipparchus, with the instinct of genius, perceived their significance, and commenced to study them. It will be understood that we can always define the position of a point on the sky with reference to the surrounding stars. No doubt we do not see the stars near the sun when the sun is shining, but they are there nevertheless. The ingenuity of Hipparchus enabled him to determine the positions of each of the two equinoxes relatively to the stars which lie in its immediate vicinity. After examination of the celestial places of these points at different periods, he was led to the conclusion that each equinox was moving relatively to the stars, though that movement was so slow that twenty five thousand years would necessarily elapse before a complete circuit of the heavens was accomplished. Hipparchus traced out this phenomenon, and established it on an impregnable basis, so that all astronomers have ever since recognised the precession of the equinoxes as one of the fundamental facts of astronomy. Not until nearly two thousand years after Hipparchus had made this splendid discovery was the explanation of its cause given by Newton. From the days of Hipparchus down to the present hour the science of astronomy has steadily grown. One great observer after another has appeared from time to time, to reveal some new phenomenon with regard to the Great Astronomers 2 Great Astronomers celestial bodies or their movements, while from time to time one commanding intellect after another has arisen to explain the true import of the facts of observations. The history of astronomy thus becomes inseparable from the history of the great men to whose labours its development is due. In the ensuing chapters we have endeavoured to sketch the lives and the work of the great philosophers, by whose labours the science of astronomy has been created.
Load more

Recommended publications
  • In the Wake of the Compendia Science, Technology, and Medicine in Ancient Cultures
    In the Wake of the Compendia Science, Technology, and Medicine in Ancient Cultures Edited by Markus Asper Philip van der Eijk Markham J. Geller Heinrich von Staden Liba Taub Volume 3 In the Wake of the Compendia Infrastructural Contexts and the Licensing of Empiricism in Ancient and Medieval Mesopotamia Edited by J. Cale Johnson DE GRUYTER ISBN 978-1-5015-1076-2 e-ISBN (PDF) 978-1-5015-0250-7 e-ISBN (EPUB) 978-1-5015-0252-1 ISSN 2194-976X Library of Congress Cataloging-in-Publication Data A CIP catalog record for this book has been applied for at the Library of Congress. Bibliographic information published by the Deutsche Nationalbibliothek The Deutsche Nationalbibliothek lists this publication in the Deutsche Nationalbibliografie; detailed bibliographic data are available on the Internet at http://dnb.dnb.de. © 2015 Walter de Gruyter Inc., Boston/Berlin Typesetting: Meta Systems Publishing & Printservices GmbH, Wustermark Printing and binding: Hubert & Co. GmbH & Co. KG, Göttingen ♾ Printed on acid-free paper Printed in Germany www.degruyter.com Notes on Contributors Florentina Badalanova Geller is Professor at the Topoi Excellence Cluster at the Freie Universität Berlin. She previously taught at the University of Sofia and University College London, and is currently on secondment from the Royal Anthropological Institute (London). She has published numerous papers and is also the author of ‘The Bible in the Making’ in Imagining Creation (2008), Qurʾān in Vernacular: Folk Islam in the Balkans (2008), and 2 (Slavonic Apocalypse of) Enoch: Text and Context (2010). Siam Bhayro was appointed Senior Lecturer in Early Jewish Studies in the Department of Theology and Religion, University of Exeter, in 2012, having previously been Lecturer in Early Jewish Studies since 2007.
    [Show full text]
  • Popular Astronomy Lectures in Nineteenth Century Britain
    Commercial and Sublime: Popular Astronomy Lectures in Nineteenth Century Britain Hsiang-Fu Huang UCL Department of Science and Technology Studies Thesis submitted for the degree of Doctor of Philosophy (PhD) in History and Philosophy of Science March 2015 2 I, Hsiang-Fu Huang, confirm that the work presented in this thesis is my own. Where information has been derived from other sources, I confirm that this has been indicated in the thesis. Date of signature: 9th March 2015 Supervisors: Joe Cain (UCL) Simon Werrett (UCL) Examiners: Frank A. J. L. James (UCL / Royal Institution of Great Britain) Richard Bellon (Michigan State University) Date of examination: 16th December 2014 3 4 Abstract This thesis discusses the practitioners, sites, curriculums, apparatus and audiences of popular astronomy lecturing in nineteenth-century Britain. Lecturers who were active approximately between 1820 and 1860 are the focus. This thesis emphasises popularisers who were not scientific elites, including C. H. Adams (1803-1871), George Bartley (c. 1782-1858), and D. F. Walker (1778-1865). Activities of private popularisers are compared with those in scientific establishments, such as the Royal Institution. Private entrepreneurs were not inferior to institutional competitors and enjoyed popularity among audiences. Until the 1860s, popular astronomy lecturing was a shared arena of institutional and private popularisers. A theatrical turn occurred in the popular astronomy lecturing trade before 1820. Popularisers moved lectures into theatres and adopted theatrical facilities in performance. They developed large onstage devices, such as the transparent orrery, for achieving scenic and dramatic effects. These onstage astronomical lectures were a phenomenon in the early nineteenth century and were usually performed during Lent.
    [Show full text]
  • Autobiography of Sir George Biddell Airy by George Biddell Airy 1
    Autobiography of Sir George Biddell Airy by George Biddell Airy 1 CHAPTER I. CHAPTER II. CHAPTER III. CHAPTER IV. CHAPTER V. CHAPTER VI. CHAPTER VII. CHAPTER VIII. CHAPTER IX. CHAPTER X. CHAPTER I. CHAPTER II. CHAPTER III. CHAPTER IV. CHAPTER V. CHAPTER VI. CHAPTER VII. CHAPTER VIII. CHAPTER IX. CHAPTER X. Autobiography of Sir George Biddell Airy by George Biddell Airy The Project Gutenberg EBook of Autobiography of Sir George Biddell Airy by George Biddell Airy This eBook is for the use of anyone anywhere at no cost and with almost no restrictions whatsoever. You may copy it, give it away or re-use it under the terms of the Project Gutenberg Autobiography of Sir George Biddell Airy by George Biddell Airy 2 License included with this eBook or online at www.gutenberg.net Title: Autobiography of Sir George Biddell Airy Author: George Biddell Airy Release Date: January 9, 2004 [EBook #10655] Language: English Character set encoding: ISO-8859-1 *** START OF THIS PROJECT GUTENBERG EBOOK SIR GEORGE AIRY *** Produced by Joseph Myers and PG Distributed Proofreaders AUTOBIOGRAPHY OF SIR GEORGE BIDDELL AIRY, K.C.B., M.A., LL.D., D.C.L., F.R.S., F.R.A.S., HONORARY FELLOW OF TRINITY COLLEGE, CAMBRIDGE, ASTRONOMER ROYAL FROM 1836 TO 1881. EDITED BY WILFRID AIRY, B.A., M.Inst.C.E. 1896 PREFACE. The life of Airy was essentially that of a hard-working, business man, and differed from that of other hard-working people only in the quality and variety of his work. It was not an exciting life, but it was full of interest, and his work brought him into close relations with many scientific men, and with many men high in the State.
    [Show full text]
  • Janson. History of Art. Chapter 16: The
    16_CH16_P556-589.qxp 12/10/09 09:16 Page 556 16_CH16_P556-589.qxp 12/10/09 09:16 Page 557 CHAPTER 16 CHAPTER The High Renaissance in Italy, 1495 1520 OOKINGBACKATTHEARTISTSOFTHEFIFTEENTHCENTURY , THE artist and art historian Giorgio Vasari wrote in 1550, Truly great was the advancement conferred on the arts of architecture, painting, and L sculpture by those excellent masters. From Vasari s perspective, the earlier generation had provided the groundwork that enabled sixteenth-century artists to surpass the age of the ancients. Later artists and critics agreed Leonardo, Bramante, Michelangelo, Raphael, Giorgione, and with Vasari s judgment that the artists who worked in the decades Titian were all sought after in early sixteenth-century Italy, and just before and after 1500 attained a perfection in their art worthy the two who lived beyond 1520, Michelangelo and Titian, were of admiration and emulation. internationally celebrated during their lifetimes. This fame was For Vasari, the artists of this generation were paragons of their part of a wholesale change in the status of artists that had been profession. Following Vasari, artists and art teachers of subse- occurring gradually during the course of the fifteenth century and quent centuries have used the works of this 25-year period which gained strength with these artists. Despite the qualities of between 1495 and 1520, known as the High Renaissance, as a their births, or the differences in their styles and personalities, benchmark against which to measure their own. Yet the idea of a these artists were given the respect due to intellectuals and High Renaissance presupposes that it follows something humanists.
    [Show full text]
  • Technical Activities 1983 Center for Basic Standards
    Technical Activities 1983 Center for Basic Standards U S. DEPARTMENT OF COMMERCE National Bureau of Standards National Measurement Laboratory Center for Basic Standards Washington, DC 20234 November 1983 Final Issued January 1984 Prepared for: U S. DEPARTMENT OF COMMERCE National Bureau of Standards Qc /ashington, DC 20234 1 00 -USk p p p I p p V i I » i » i i » i [i fi n NBSIR 83-2793 TECHNICAL ACTIVITIES 1983 CENTER FOR BASIC STANDARDS Karl G. Kessler, Director U.S. DEPARTMENT OF COMMERCE National Bureau of Standards National Measurement Laboratory Center for Basic Standards Washington, DC 20234 November 1 983 Final Issued January 1984 Prepared for: U.S. DEPARTMENT OF COMMERCE National Bureau of Standards Washington, DC 20234 U.S. DEPARTMENT OF COMMERCE, Malcolm Baidrige. Secretary NATIONAL BUREAU OF STANDARDS, Ernest Ambler, Director TABLE OF CONTENTS Part II Page Technical Activities: Introduction 1 Quantum Metrology Group 2 Electricity Division 21 Temperature and Pressure Division 81 Length and Mass Division 123 Time and Frequency Division 135 Quantum Physics Division 187 i i I 1 I II II i li 1 1 INTRODUCTION This book is Part II of the 1983 Annual Report of the Center for Basic Standards and contains a summary of the technical activities of the Center for the period October 1, 1982 to September 30, 1983. The Center is one of the five resources and operating units in the National Measurement Laboratory. The summary of activities is organized in six sections, one for the technical activities of the Quantum Metrology Group, and one each for the five divisions of the Center.
    [Show full text]
  • A Newly-Discovered Accurate Early Drawing of M51, the Whirlpool Nebula
    Journal of Astronomical History and Heritage , 11(2), 107-115 (2008). A NEWLY-DISCOVERED ACCURATE EARLY DRAWING OF M51, THE WHIRLPOOL NEBULA William Tobin 6 rue Saint Louis, 56000 Vannes, France. E-mail: [email protected] and J.B. Holberg Lunar and Planetary Laboratory, University of Arizona, 1541 East University Boulevard, Tucson, AZ 85721, U.S.A. E-mail: [email protected] Abstract: We have discovered a lost drawing of M51, the nebula in which spiral structure was first discovered by Lord Rosse. The drawing was made in April 1862 by Jean Chacornac at the Paris Observatory using Léon Foucault’s newly-completed 80-cm silvered-glass reflecting telescope. Comparison with modern images shows that Chacornac’s drawing was more accurate with respect to gross structure and showed fainter details than any other nineteenth century drawing, although its superiority would not have been apparent at the time without nebular photography to provide a standard against which to judge drawing quality. M51 is now known as the Whirlpool Nebula, but the astronomical appropriation of ‘whirlpool’ predates Rosse’s discovery. Keywords: reflecting telescopes, nebulae, spiral structure, Léon Foucault, Lord Rosse, M51, Whirlpool Nebula 1 REFLECTING TELESCOPES AND SPIRAL STRUCTURE The French physicist Léon Foucault (1819–1868) is the father of the reflecting telescope in its modern form, with large, optically-perfect, metallized glass or ceramic mirrors. Foucault achieved this breakthrough while working as ‘physicist’ at the Paris Observatory in the late 1850s. The largest telescope that he built (Foucault, 1862) had a silvered-glass, f/5.6 primary mirror of 80-cm diameter in a Newtonian configura- tion (see Figure 1).
    [Show full text]
  • El Dragon De Gaudi En Barcelona
    NETWORK FOR ASTRONOMY SCHOOL EDUCATION EL DRAGON DE GAUDI EN BARCELONA Rosa M. Ros – NASE Introducción En 1884 Gaudí proyecta los pabellones de entrada y los jardines de la finca que tiene Eusebi Güell Bacigalupi en la zona de Pedralbes en Barcelona como un homenaje póstumo al suegro del Sr. Güell que pasaba temporadas en dicha finca. El martes 16 de enero de 1883 falleció en Barcelona el primer Marqués de Comillas, Antonio López López y los Pabellones Güell se realizan del 1884 al 1887. Para ello Gaudí se inspira en el Jardín de las Hespérides tal y como Jacinto Verdaguer lo describía en su poema La Atlántida. Verdaguer dedicó este poema en 1877 al Marqués de Comillas, y curiosamente el autor lo termino de escribir en esta misma finca. La finca Güell El conjunto se compone de la casa de los guardias y las caballerizas. Dos casas unidas por una puerta monumental (figura 1). En la entrada destaca la gran escultura de hierro forjado de Ladón, el dragón mitológico adversario de Hércules en su undécimo trabajo. Después de la muerte de Eusebio Güell, en 1918, sus descendientes ceden la casa y parte de los terrenos de la finca para construcción del Palacio Real de Pedralbes. Las antiguas caballerizas, el picador y la casa del guardia forman parte actualmente de la Universidad de Barcelona. Las caballerizas son la sede actual de la Real Cátedra Gaudí de la Universidad Politécnica de Cataluña. Figura 1: Pabellones de la Finca Güell: Casa del Guardia, puerta y Caballerizas. NETWORK FOR ASTRONOMY SCHOOL EDUCATION Este precioso conjunto modernista, tiene una de las puertas de hierro forjado mas fotografiadas de Barcelona (figura 1).
    [Show full text]
  • Solar Writer Report for Abraham Lincoln
    FIXED STARS A Solar Writer Report for Abraham Lincoln Written by Diana K Rosenberg Compliments of:- Stephanie Johnson Seeing With Stars Astrology PO Box 159 Stepney SA 5069 Australia Tel/Fax: +61 (08) 8331 3057 Email: [email protected] Web: www.esotech.com.au Page 2 Abraham Lincoln Natal Chart 12 Feb 1809 12:40:56 PM UT +0:00 near Hodgenville 37°N35' 085°W45' Tropical Placidus 22' 13° 08°ˆ ‡ 17' ¾ 06' À ¿É ‰ 03° ¼ 09° 00° 06° 09°06° ˆ ˆ ‡ † ‡ 25° 16' 41'08' 40' † 01' 09' Œ 29' ‰ 9 10 23° ¶ 8 27°‰ 11 Ï 27° 01' ‘ ‰02' á 7 12 ‘ áá 23° á 23° ¸ 23°Š27' á Š à „ 28' 28' 6 18' 1 10°‹ º ‹37' 13° 05' ‹ 5 Á 22° ½ 27' 2 4 01' Ü 3 07° Œ ƒ » 09' 23° 09° Ý Ü 06° 16' 06' Ê 00°ƒ 13° 22' Ý 17' 08°‚ Page 23 Astrological Summary Chart Point Positions: Abraham Lincoln Planet Sign Position House Comment The Moon Capricorn 27°Cp01' 12th The Sun Aquarius 23°Aq27' 12th read into 1st House Mercury Pisces 10°Pi18' 1st Venus Aries 7°Ar27' 1st read into 2nd House Mars Libra 25°Li29' 8th Jupiter Pisces 22°Pi05' 1st Saturn Sagittarius 3°Sg08' 9th read into 10th House Uranus Scorpio 9°Sc40' 8th Neptune Sagittarius 6°Sg41' 9th read into 10th House Pluto Pisces 13°Pi37' 1st The North Node Scorpio 6°Sc09' 8th The South Node Taurus 6°Ta09' 2nd The Ascendant Aquarius 23°Aq28' 1st The Midheaven Sagittarius 8°Sg22' 10th The Part of Fortune Capricorn 27°Cp02' 12th Chart Point Aspects Planet Aspect Planet Orb App/Sep The Moon Square Mars 1°32' Separating The Moon Conjunction The Part of Fortune 0°00' Applying The Sun Trine Mars 2°02' Applying The Sun Conjunction The Ascendant
    [Show full text]
  • Goodman, Matthew (2018) from 'Magnetic Fever' to 'Magnetical Insanity': Historical Geographies of British Terrestrial Magnetic Research, 1833- 1857
    Goodman, Matthew (2018) From 'magnetic fever' to 'magnetical insanity': historical geographies of British terrestrial magnetic research, 1833- 1857. PhD thesis. https://theses.gla.ac.uk/30829/ Copyright and moral rights for this work are retained by the author A copy can be downloaded for personal non-commercial research or study, without prior permission or charge This work cannot be reproduced or quoted extensively from without first obtaining permission in writing from the author The content must not be changed in any way or sold commercially in any format or medium without the formal permission of the author When referring to this work, full bibliographic details including the author, title, awarding institution and date of the thesis must be given Enlighten: Theses https://theses.gla.ac.uk/ [email protected] From ‘magnetic fever’ to ‘magnetical insanity’: historical geographies of British terrestrial magnetic research, 1833-1857 Matthew Goodman Submitted in fulfilment of the requirements for the Degree of Doctor of Philosophy (PhD) School of Geographical and Earth Sciences College of Science and Engineering University of Glasgow Contents Abstract................................................................................................................................................................ 5 List of Figures .................................................................................................................................................... 6 Acknowledgements .........................................................................................................................................
    [Show full text]
  • The Information Order of Isaac Newton's Principia Mathematica
    SIMON SCHAFFER The Information Order of Isaac Newton’s Principia Mathematica THE HANS RAUSING LECTURE 2008 UPPSALA UNIVERSITY SALVIA SMÅSKRIFTER 1 2 THE HANS RAUSING LECTURE 2008 The Information Order of Isaac Newton’s Principia Mathematica SIMON SCHAFFER Professor of History of Science, University of Cambridge UPPSALA UNIVERSITY 3 SALVIA SMÅSKRIFTER, NO. 11 © Författaren Tryck Wikströms, Uppsala 2008 ISBN 978-91-506-2040-5 4 Contents The Information Order of Isaac Newton’s Principia Mathematica 7 What I may seem to the World 7 Information Orders and Credit Economies 12 Tides and Currents: A Tonkin Resolution 23 Comets and Pendulums: Information Obscured by Clouds 36 In Heaven as it is on Earth 49 Author’s biographical sketch 59 5 6 The Information Order of Isaac Newton’s Principia Mathematica Simon Schaffer What I may seem to the world “I know not what I may seem to the world, but as to myself, I seem to have been only like a boy playing on the sea-shore and diverting myself in now and then finding a smoother pebble or a prettier shell than ordinary, whilst the great ocean of truth lay all undiscovered before me.” 1 It is one of the most celebrated of Isaac Newton’s obiter dicta. Like many such, its provenance is a bit hazy. The literary reference is surely to a passage from John Milton’s great redemptive poem Paradise Regained (1671) where, in dialogue with Satan, Christ praises divine illumination above pagan learning.2 But the statement’s immediate relation with Newton is more ambiguous. The earliest version is to be found in an Oxford conversation of April 1730, three years after Newton’s death, between the gossipy man of letters Joseph Spence and the Jacobite, freemason and court tutor Andrew Ramsay.
    [Show full text]
  • GTO Keypad Manual, V5.001
    ASTRO-PHYSICS GTO KEYPAD Version v5.xxx Please read the manual even if you are familiar with previous keypad versions Flash RAM Updates Keypad Java updates can be accomplished through the Internet. Check our web site www.astro-physics.com/software-updates/ November 11, 2020 ASTRO-PHYSICS KEYPAD MANUAL FOR MACH2GTO Version 5.xxx November 11, 2020 ABOUT THIS MANUAL 4 REQUIREMENTS 5 What Mount Control Box Do I Need? 5 Can I Upgrade My Present Keypad? 5 GTO KEYPAD 6 Layout and Buttons of the Keypad 6 Vacuum Fluorescent Display 6 N-S-E-W Directional Buttons 6 STOP Button 6 <PREV and NEXT> Buttons 7 Number Buttons 7 GOTO Button 7 ± Button 7 MENU / ESC Button 7 RECAL and NEXT> Buttons Pressed Simultaneously 7 ENT Button 7 Retractable Hanger 7 Keypad Protector 8 Keypad Care and Warranty 8 Warranty 8 Keypad Battery for 512K Memory Boards 8 Cleaning Red Keypad Display 8 Temperature Ratings 8 Environmental Recommendation 8 GETTING STARTED – DO THIS AT HOME, IF POSSIBLE 9 Set Up your Mount and Cable Connections 9 Gather Basic Information 9 Enter Your Location, Time and Date 9 Set Up Your Mount in the Field 10 Polar Alignment 10 Mach2GTO Daytime Alignment Routine 10 KEYPAD START UP SEQUENCE FOR NEW SETUPS OR SETUP IN NEW LOCATION 11 Assemble Your Mount 11 Startup Sequence 11 Location 11 Select Existing Location 11 Set Up New Location 11 Date and Time 12 Additional Information 12 KEYPAD START UP SEQUENCE FOR MOUNTS USED AT THE SAME LOCATION WITHOUT A COMPUTER 13 KEYPAD START UP SEQUENCE FOR COMPUTER CONTROLLED MOUNTS 14 1 OBJECTS MENU – HAVE SOME FUN!
    [Show full text]
  • Newton on the Beach: the Information Order of Principia Mathematica
    Hist. Sci., xlvii (2009) NEWTON ON THE BEACH: THE INFORMATION ORDER OF PRINCIPIA MATHEMATICA Simon Schaffer Cambridge University WHAT I MAY SEEM TO THE WORLD I know not what I may seem to the world, but as to myself, I seem to have been only like a boy playing on the sea-shore and diverting myself in now and then finding a smoother pebble or a prettier shell than ordinary, whilst the great ocean of truth lay all undiscovered before me.1 It is one of the most celebrated of Isaac Newton’s obiter dicta. Like many such, its provenance is hazy. The literary reference may well be to a passage from John Milton’s great redemptive poem Paradise regained (1671) where, in dialogue with Satan, Christ praises divine illumination above pagan learning: “who reads / Inces- santly, and to his reading brings not / A spirit and judgment equal or superior, / … Uncertain and unsettled still remains, / Deep verst in books, and shallow in himself, / Crude or intoxicate, collecting toys / And trifles for choice matters, worth a spunge, / As children gath’ring pebbles on the shore”.2 But the remark’s immediate relation with Newton is more ambiguous. The earliest version is found in a conversation of April 1730, three years after Newton’s death, between the gossipy man of letters Joseph Spence and the Jacobite, freemason and court tutor Andrew Ramsay. While chatting about Newton’s debt to ancient theology and his strange attitudes towards the doctrine of the Trinity, Ramsay quoted Newton’s phrase, adding it was “as great as all” of Principia mathematica.3 Never one to let a nice epigram slip, Ramsay then incorporated the expression in his 1732 Plan of education for a young prince, composed to help tutor the heirs of a noble French clan.
    [Show full text]